Abstract
Permafrost covers 25% of the land surface in the northern hemisphere, where mean annual ground temperature is less than 0°C. A 1.4–5.8 °C warming by 2100 will likely change the sign of mean annual air and ground temperatures over much of the zones of sporadic and discontinuous permafrost in the northern hemisphere, causing widespread permafrost thaw. In this study, I examined rates of discontinuous permafrost thaw in the boreal peatlands of northern Manitoba, Canada, using a combination of tree-ring analyses to document thaw rates from 1941–1991 and direct measurements of permanent benchmarks established in 1995 and resurveyed in 2002. I used instrumented records of mean annual and seasonal air temperatures, mean winter snow depth, and duration of continuous snow pack from climate stations across northern Manitoba to analyze temporal and spatial trends in these variables and their potential impacts on thaw. Permafrost thaw in central Canadian peatlands has accelerated significantly since 1950, concurrent with a significant, late-20th-century average climate warming of +1.32 °C in this region. There were strong seasonal differences in warming in northern Manitoba, with highest rates of warming during winter (+1.39 °C to +1.66 °C) and spring (+0.56 °C to +0.78 °C) at southern climate stations where permafrost thaw was most rapid. Projecting current warming trends to year 2100, I show that trends for north-central Canada are in good agreement with general circulation models, which suggest a 4–8 °C warming at high latitudes. This magnitude of warming will begin to eliminate most of the present range of sporadic and discontinuous permafrost in central Canada by 2100.
Similar content being viewed by others
References
Anisimov, O. A. and Nelson, F. E.: 1996, ‘Permafrost distribution in the Northern Hemisphere under scenarios of climatic change’, Global Planetary Change141–2, 59–72.
Baldocchi, D., Kelliher, F. M., Black, T. A., and Jarvis, P.: 2000, ‘Climate and vegetation controls on boreal zone energy exchange’, Global Change Biol.6Suppl 1, 69–83.
Beilman, D. W., Vitt, D. H., and Halsey, L. A.: 2001, ‘Localized permafrost peatlands in western Canada: definition, distributions, and degradation’, Arctic Antarctic Alpine Res.331, 70–77.
Beltrami, H. and Mareschal, J. C.: 1991, ‘Recent warming in eastern Canada inferred from geothermal measurements’, Geophys. Res. Lett.184, 605–608.
Billings, W. D.: 1987, ‘Carbon balance of Alaskan tundra and taiga ecosystems: past, present, and future’, Quaternary Sci. Rev.6, 165–177.
Brown, R. J. E. and Péwé, T. L.: 1973, ‘Distribution of permafrost in North America and its relationship to the environment: A review 1963–1973’, in Proceedings of the 2nd International Conference on PermafrostYakutsk, USSR, North American contribution. Washington, DC, National Academy of Science, pp. 71–100.
Brown, J., Ferrians, Jr., O. J., Heginbottom, J. A., and Melnikov, E. S.: 1998, ‘Digital circum-Arctic map of permafrost and ground-ice conditions’, in International Permafrost Association, Data and Information Working Group, Comp. Cimcumpolar Active-Layer Permafrost System CAPS Version 1.0.
Camill, P.: 1999a, ‘Peat accumulation and succession following permafrost thaw in the boreal peatlands of Manitoba, Canada’, Ecoscience64, 592–602.
Camill, P.: 1999b: ‘Patterns of boreal permafrost peatland vegetation across environmental gradients sensitive to climate warming’, Can. J. Bot.775, 721–733.
Camill, P. and Clark, J. S.: 1998, ‘Climate change disequilibrium of boreal permafrost peatlands caused by local processes’, Am. Nat.1513, 207–222.
Camill, P., Lynch, J. A., Clark, J. S., Adams, J. B., and Jordan, B.: 2001, ‘Changes in biomass, aboveground NPP, and peat accumulation following permafrost thaw in the boreal peatlands of Manitoba, Canada’, Ecosystems4, 461–478.
Chapin, III, F. S., Eugster, W., McFadden, J. P., Lynch, A. H., and Walker, D. A.: 2000a, ‘Summer differences among Arctic ecosystems in regional climate forcing’, J. Climate1312, 2002–2010.
Chapin, III, F. S., McGuire, A. D., Randerson, J., Pielke, R., Baldocchi, D., Hobbie, S.E., Roulet, N., Eugster, W., Kasischke, E., Rastetter, E. B., Zimov, S. A., and Running,S. W.: 2000b, ‘Arctic and boreal ecosystems of western North America as components of the climate system’, Global Change Biol.6 Suppl 1, 211–223. Chapman, W. L. and Walsh, J. E.: 1993, ‘Recent variations of sea ice and air temperature in high latitudes’, Bull. Am. Meteorol. Soc.74, 2–16.
Efron, B. and Tibshirani, R.: 1993, An Introduction to the Bootstrap, Chapman and Hall, New York.
Englefield, P. G. C.: 1994, Rate of Permafrost Degradation in Peatlands. M.S. Thesis. University of Alberta, Edmonton.
Environment Canada: 2002, ‘Canadian Daily Climate Data: Temperature and Precipitation, Western Canada 2000’,Climate Products and Publications Division Atmospheric, Climate, and Water Systems Branch, Atmospheric Environment Service,Downsview, ON.
Eugster, W., Rouse, W. R., Pielke, R. A., McFadden, J. P., Baldocchi, D. D., Kittel, T. G. F., Chapin, F. S., Liston, G. E., Vidale, P. L., Vaganov, E., and Chambers, S.: 2000, ‘Land-atmosphere energy exchange in Arctic tundra and boreal forest: Available data and feedbacks to climate’, Global Change Biology6Suppl 1, 84–115.
Gold, L. W.: 1963, ‘Influence of snow cover on the average annual ground temperature at Ottawa, Canada’, Int. Assoc. Sci. Hydrol.61, 82–91.
Goodrich, L. E.: 1982, ‘The influence of snow cover on the ground thermal regime’, Can. Geotechnical J.194, 421–432.
Goulden, M. L., Wofsy, S. C., Harden, J. W., Trumbore, S. E., Crill, P. M., Gower, S. T., Fries, T., Daube, B. C., Fan, S. M., Sutton, D. J., Bazzaz, A., and Munger, J. W.: 1998, ‘Sensitivity of boreal forest carbon balance to soil thaw’, Science279, 214–217.
Gullet, D.W. and Skinner, W.R.: 1992: ‘The state of Canada’s Climate: Temperature change in Canada 1895–1991’, Environment Canada, SOE Report No. 92–2, pp. 35.
Halsey, L. A., Vitt, D. H., and Zoltai, S. C.: 1995, ‘Disequilibrium response of permafrost in boreal continental western Canada to climate change’, Climatic Change301, 57–73.
Harris, S. A.: 2002, ‘Causes and consequences of rapid thermokarst development in permafrost or glacial terrain’, Permafrost Periglacial Process.133,237–242.
Harris, C., Vonder Muhll, D., Isaksen, K., Haeberli, W., Sollid, J. L., King, L., Holmlund, P., Dramis, F., Guglielmin, M., and Palacios, D.: 2003, ‘Warming permafrost in European mountains’, Global Planetary Change39 3, 4, 215–225.
Hinkel, K. M., Paetzold, F., Nelson, F. E., and Bockheim, J. G.: 2001, ‘Patterns of soil temperature and moisture in the active layer and upper permafrost at Barrow, Alaska: 1993–1999’, Global Planetary Change293, 4, 293–309.
Intergovernmental Panel on Climate Change IPCC: 2001, ‘Climate Change 2001: The Scientific Basis’, Cambridge University Press, Cambridge.
Jorgensen, M. T. and Kreig, R. A.: 1988, ‘A model for mapping permafrost distribution based on landscape component maps and climatic variables’, in Proceedings of the Permafrost: Fifth International Conference, Trondheim, Norway,Vol. 1. Tapir Publishers, Trondheim, Norway, pp. 176–182.
Jorgenson, M. T., Racine, C. H., Walters, J. C., and Osterkamp, T. E.: 2001, ‘Permafrost degradation and ecological changes associated with a warming climate in central Alaska’, Climatic Change484, 551–579.
Laberge, M. J. and Payette, S.: 1995, ‘Long-term monitoring of permafrost change in a palsa peatland in northern Quebec, Canada: 1983–1993’, Arctic Alpine Res.272, 167–171.
Lachenbruch, A. H. and Marshall, B. V.: 1986, ‘Changing climate: Geothermal evidence from permafrost in the Alaskan Arctic’, Science234, 689–696.
Ling, F. and Zhang, T. J.: 2003, ‘Impact of the timing and duration of seasonal snow cover on the active layer and permafrost in the Alaskan Arctic’, Permafrost Periglacial Process142, 141–150.
Lloyd, A. H., Yoshikawa, K., Fastie, C. L., Hinzman, L., and Fraver, M.: 2003, ‘Effects of permafrost degradation on woody vegetation at arctic treeline on the Seward Peninsula, Alaska’, Permafrost Periglacial Process142, 93–101.
Lunardini, V. J.: 1978, ‘Theory of n-factors’, in Proceedings of the Third International Conference on Permafrost, Vol. 1. Edmonton, Canada, National Research Council of Canada: Ottawa, pp. 40–46.
Lunardini, V. J.: 1996, ‘Climatic warming and the degradation of warm permafrost’, Permafrost Periglacial Process74, 311–320.
Lynch, A. H., Bonan, G. B., Chapin, F. S., and Wu, W.: 1999, ‘Impact of tundra ecosystems on the surface energy budget and climate of Alaska’, J. Geophys. Res. Atmos.104D6, 6647–6660.
Mackay, J. R.: 1995, ‘Active layer changes 1968–1993 following the forest-tundra fire near Inuvik, N.W.T., Canada’, Arctic Alpine Res.274, 323–336.
Majorowicz, J. A.: 1996, ‘Accelerating ground warming in the Canadian prairie provinces: Is it a result of global warming?’, Pure Appl. Geophys.1471, 1–24.
Majorowicz, J. A. and Skinner, W. R.: 2001, ‘Reconstruction of the surface warming history of western interior Canada from borehole temperature profiles and other climate information’, Climate Res.163, 157–167.
Melillo, J. M., Steudler, P. A., Aber, J. D., Newkirk, K., Lux, H., Bowles, F. P., Catricala, C., Magill, A., Ahrens, T., and Morrisseau, S.: 2002, ‘Soil warming and carbon-cycle feedbacks to the climate system’, Science298, 2173.
Nelson, F. E., Anisimov, O. A., and Shiklomanov, N. I.: 2002, ‘Climate change and hazard zonation in the circum-Arctic permafrost regions’, Natural Hazards263, 203–225.
Oechel, W. C., Hastings, S. J., Vourlitis, G., Jenkins, M., Riechers, G., and Grulke, N.: 1993, ‘Recent change of Arctic tundra ecosystems from a net carbon dioxide sink to a source’, Nature361, 520–523.
Oechel, W. C., Vourlitis, G. L., Hastings, S. J., Zulueta, R. C., Hinzman, L., and Kane, D.: 2000, ‘Acclimation of ecosystem CO2 exchange in the Alaskan Arctic in response to decadal climate warming’, Nature406, 978.
Oelke, C., Zhang, T. J., Serreze, M. C., and Armstrong, R. L.: 2003, ‘Regional-scale modeling of soil freeze/thaw over the Arctic drainage basin’, J. Geophys. Res. Atmos.108 D10, Art. No. 4314.
Osterkamp, T. E. and Romanovsky, V. E.: 1999, ‘Evidence for warming and thawing of discontinuous permafrost in Alaska’, Permafrost Periglacial Process101,17–37.
Osterkamp, T. E., Viereck, L., Shur, Y., Jorgenson, M. T., Racine, C., Doyle, A., and Boone, R. D.: 2000, ‘Observations of thermokarst and its impact on boreal forests in Alaska, USA’, Arctic Antarctic Alpine Res.323, 303–315.
Pollack, H. N., Huang, S. P. and Shen, P. Y.: 1998, ‘Climate change record in subsurface temperatures: A global perspective’, Science282, 279–281.
Robinson, S. D. and Moore, T. R.: 2000, ‘The influence of permafrost and fire upon carbon accumulation in high boreal peatlands, Northwest Territories, Canada’, Arctic Antarctic Alpine Res.32, 155–166.
Romanovsky, V. E. and Osterkamp, T. E.: 1995, ‘Inter-annual variations of the thermal regime of the active layer and near-surface permafrost in northern Alaska’, Permafrost Periglacial Process.64, 313–335.
Rouse, W. R.: 2000, ‘The energy and water balance of high-latitude wetlands: Controls and extrapolation’, Global Change Biol.6Suppl 1, 59–68.
Serreze, M. C., Walsh, J. E., Chapin, F. S., Osterkamp, T., Dyurgerov, M., Romanovsky, V., Oechel, W. C., Morison, J., Zhang, T., and Barry, R. G.: 2000, ‘Observational evidence of recent change in the northern high-latitude environment’, Climatic Change461, 2, 159–207.
Smith, M. W.: 1975, ‘Microclimatic influences on ground temperatures and permafrost distribution, Mackenzie Delta, Northwest Territories’, Can. J. Earth Sci.128, 1421–1438.
Smith, M. W. and Riseborough, D. W.: 1996, ‘Permafrost monitoring and detection of climate change’, Permafrost Periglacial Process7, 301–309.
Smith, M. W. and Riseborough, D. W.: 2002, ‘Climate and the limits of permafrost: A zonal analysis’, Permafrost Periglacial Process.13, 1–15.
Stendel, M. and Christensen, J. H.: 2002, ‘Impact of global warming on permafrost conditions in a coupled GCM’, Geophys. Res. Lett.2913, Art. No. 1632.
Stieglitz, M., Dery, S. J., Romanovsky, V. E., and Osterkamp, T. E.: 2003, ‘The role of snow cover in the warming of arctic permafrost’, Geophys. Res. Lett.3013, Art. No. 1721.
Stieglitz, M., Giblin, A., Hobbie, J., Williams, M., and Kling, G.: 2000, ‘Simulating the effects of climate change and climate variability on carbon dynamics in Arctic tundra’, Global Biogeochemical Cycles14 4, 1123–1136.
Tarnocai, C.: 1999, ‘The effect of climate warming on the carbon balance of cryosols in Canada’, Permafrost Periglacial Process103, 251–263.
Thie, J.: 1974, ‘Distribution and thawing of permafrost in the southern part of the discontinuous permafrost zone in Manitoba’, Arctic27, 189–200.
Trumbore, S. E. and Harden, J. W.: 1997, ‘Accumulation and turnover of carbon in organic and mineral soils of the BOREAS northern study area’, J. Geophys. Res.102D24, 28, 817–828, 830.
Turetsky, M. R., Wieder, R. K., Williams, C. J., and Vitt, D. H.: 2000, ‘Organic matter accumulation, peat chemistry, and permafrost melting in peatlands of Boreal Alberta’, Ecoscience73, 379–392.
Waelbroeck, C., Monfray, P., Oechel, W. C., Hastings, S., and Vourlotis, G.: 1997, ‘The impact of permafrost thawing on the carbon dynamics of tundra’, Geophys. Res. Lett.243, 229–232.
Zhang, T., Barry, R. G., Gilichinsky, D., Bykhovets, S. S., Sorokovikov, V. A, and Ye, J.P.: 2001, ‘An amplified signal of climatic change in soil temperatures during the last century at irkutsk, Russia’, Climatic Change491, 2, 41–76.
Zhang, T., Roger, G., Barry, K., Knowles, J. A., Heginbottom, and Brown, J.: 1999, ‘Statistics and characteristics of permafrost and ground ice distribution in the Northern Hemisphere’, Polar Geogr.232, 147–169.
Zhang, T. and Stamnes, K.: 1998, ‘Impact of climatic factors on the active layer and permafrost at Barrow, Alaska’, Permafrost Periglacial Process93, 229–246.
Zhuang, Q., McGuire, A. D., Melillo, J. M., Clein, J. S., Dargaville, R. J., Kicklighter,D. W., Myneni, R. B., Dong, J., Romanovsky, V. E., Harden, J., and Hobbie, J. E.: 2003, ‘Carbon cycling in extratropical terrestrial ecosystems of the Northern Hemisphere during the 20th century: A modeling analysis of the influences of soil thermal dynamics’, Tellus Series B-Chemical and Physical Meteorology553, 751–776.
Zoltai, S. C.: 1972, ‘Palsas and peat plateaus in central Manitoba and Saskatchewan’, Can. J. Forest Res.2, 291–302.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Camill, P. Permafrost Thaw Accelerates in Boreal Peatlands During Late-20th Century Climate Warming. Climatic Change 68, 135–152 (2005). https://doi.org/10.1007/s10584-005-4785-y
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/s10584-005-4785-y